Name: Period: ATMOSPHERE PACKET CHAPTER 22 PAGES 546-564 Section 1 page 546 1. Identify five main components of the atmosphere 2. Explain the cause of atmospheric pressure. 3. Why is atmospheric pressure generally lower beneath a mass of warm air than beneath a mass of cold air? 4. Which industrial city would have fewer air-pollution incidents related to temperature inversion: one on the Great Plains or one near the Rocky Mountains? Explain your answer. 5. Fill out this table about the different layers of the atmosphere Name of Layer Height in km Other facts about the layer 1
Name Period Directed Reading Section: Solar Energy and the Atmosphere p. 555 1. How is Earth s atmosphere heated? 2. Name the two primary sources of heat in the atmosphere. RADIATION 3. The waves that make up all forms of radiation 4. all forms of energy that travel through space as waves, including the energy that Earth receives from the sun. 5. What form of radiation can humans see? 6. What are three forms of radiation that humans cannot see? 7. How fast do waves of radiation travel through space? 8. Which wavelengths are shorter than visible light? Which are longer? THE ATMOSPHERE AND SOLAR RADIATION 9. Almost all radiation that has a wavelength shorter than the wavelengths of visible light is absorbed by the A. lower atmosphere. B. thermosphere. C. upper atmosphere. D. stratosphere. 10. X rays, gamma rays, and ultraviolet rays are absorbed by molecules of nitrogen and oxygen in the mesosphere and A. lower atmosphere. B. thermosphere. C. upper atmosphere. D. stratosphere. 11. Ultraviolet rays are absorbed and act upon oxygen molecules to form ozone in the A. lower atmosphere. B. thermosphere. C. upper atmosphere. D. stratosphere. 12. Most incoming infrared radiation is absorbed by carbon dioxide, water vapor, and other complex molecules in the. 13. How much of the radiation from visible light waves is absorbed as they pass through the atmosphere?. 14. What causes scattering? 15. What happens when particles and gas molecules in the atmosphere reflect and bend solar rays? 2
16. What does scattering do to solar rays that are traveling to Earth? 17. What effect does scattering have on the sky s appearance? 18. What happens to solar energy that reaches Earth s surface? 19. What are eight characteristics on which the amount of energy that is absorbed or reflected by Earth s surface depends? 20. What is the fraction of solar radiation that is reflected off a particular surface called? 21. What is Earth s albedo? Explain your answer. 3 ABSORPTION AND INFRARED ENERGY 22. Solar radiation that is not reflected is A. absorbed. B. scattered. C. radiated. D. dissipated. 23. When Earth s surface absorbs solar radiation, the surface materials are heated by A. longer-wavelength infrared rays and ultraviolet light. B. short-wavelength infrared rays and visible light. C. short-wavelength microwaves and infrared light. D. longer-wavelength microwaves and ultraviolet light. 24. Heated materials on Earth s surface convert energy into infrared rays of longer wavelengths and A. reabsorb energy as infrared waves. B. reabsorb energy as radio waves. C. reemit energy as infrared rays. D. reemit energy as radio waves. 25. What happens to the infrared rays that are reemitted into the atmosphere? 26. What does the absorption of thermal energy from the ground do to Earth s surface? 27. Warm air near Earth s surface sometimes bends light rays to cause an effect called a. 28. One process that helps heat Earth s atmosphere that is similar to the process that heats a greenhouse is called the. 29. The warming of the surface and lower atmosphere of Earth that occurs when carbon dioxide, water vapor, and other gases in the air absorb and reradiate infrared radiation is called the. 30. How does the amount of solar energy that enters Earth s atmosphere generally compare to the amount that escapes into space?
37. Why are the warmest hours of the day usually mid- to late afternoon? 31. What is one human activity that may have caused the average temperature of the atmosphere to increase in recent years? VARIATIONS IN TEMPERATURE 32. What is the primary factor that affects how much solar energy reaches any point on Earth s surface? A. surface features B. time of year C. latitude D. time of day 33. Near the equator, the rays of the sun strike the ground at an angle of about A. 90%. B. 45%. C. 60%. D. 10%. 34. Temperatures are higher at the equator because A. solar energy is spread out over a larger area. B. solar energy is concentrated in a small area. C. clouds hold in the solar energy. D. more solar energy is reflected into space. 35. Seasonal variations in temperature occur because of A. the changing distance between Earth and the sun. B. the speed of Earth s rotation. C. the tilt of Earth s axis. D. the variations in the sun s energy. 36. Why does the amount of water in the air affect the temperature of a region? A. Water vapor reflects sunlight. B. Water vapor cools the air. C. Water vapor creates clouds. D. Water vapor stores heat. 4 38. What happens to the energy when sunlight hits Earth at an angle smaller than 90? 39. Why does the Northern Hemisphere have higher temperatures for one part of the year and lower temperatures the rest? 40. Why does the amount of water in the air affect the temperature of a region? 41. Why do areas of high elevation become warm during the day and cool quickly at night? 42. Why do desert temperatures vary widely between day and night? 43. Why are land areas close to large bodies of water generally cooler during the day and warmer at night than similar inland areas? CONDUCTION
44. As they become heated, molecules in a substance A. move at the same rate as when they are cooled. B. move faster. C. move more slowly. D. do not move at all. 45. What effect do collisions between molecules have on the molecules? A. It changes their structure. B. It breaks them apart. C. It cools them. D. It warms them. 46. The transfer of energy as heat from one substance to another by direct contact is called A. conduction. B. collision. C. firing. D. baking. 47. Solid substances are good conductors because A. molecules are close together. B. molecules are far apart. C. molecules cannot collide. D. molecules move slowly. 48. Air is a poor conductor because A. molecules are close together. B. molecules are far apart. C. molecules cannot collide. D. molecules move slowly. 49. Conduction heats only the lowest few centimeters of the atmosphere because A. air does not come into direct contact with Earth. B. air comes into direct contact with Earth. C. molecules of air in the lower atmosphere are closer together. D. molecules in the upper atmosphere do not collide. CONVECTION 50. What is the primary cause of the heating of the lower atmosphere? 51. The movement of matter due to differences in density caused by temperature variations resulting in the transfer of heat is called. 5 52. What happens to air heated by radiation or conduction? 53. How is Earth s atmosphere warmed evenly? 54. Why is the atmospheric pressure lower beneath a mass of warm air? 55. Explain how atmospheric pressure differences create winds. Section 3: Atmospheric Circulation p.561 1. What causes the movement of air worldwide? 2. In what pattern does air near Earth s surface generally flow? 3. Why does air near Earth s surface flow from the poles to the equator? 4. Where do high pressure regions form?
5. Where do low-pressure regions form? THE CORIOLIS EFFECT 6. The circulation of the atmosphere and of the oceans is affected by A. the rotation of Earth at the equator. B. the rotation of Earth on its axis. C. the rotation of the moon on its axis. D. seasonal storms. 7. Earth s rotation causes its diameter to be A. greatest through the equator. B. greatest through the poles. C. equal through the equator and the poles. D. greater at the North Pole than at the South Pole. 8. Do points near the equator or points near the poles travel farther and faster in a day? 9. Why does air follow a curved path? 10. The curving of the path of a moving object from an otherwise straight path due to earth s rotation is called the. 11. What impact does the Coriolis effect have on the winds? 12. What determines the path along which the Coriolis effect deflects moving objects? 13. In which direction does the Coriolis effect deflect moving objects in the Northern Hemisphere? In the Southern Hemisphere? 14. How do the mass and travel distances of air or ocean currents relate to the Coriolis effect? 15. In general, on what type of objects is the Coriolis effect detectable? GLOBAL WINDS 16. What are the three looping patterns of air flow in each hemisphere called? A. wind belts B. convection cells C. prevailing winds D. global air flow 17. A wind belt is characterized by prevailing winds that A. flow in one main direction. B. flow from the southwest. C. flow from the northeast. D. flow in all directions. 18. The prevailing winds that blow from east to west from 30 latitude to the equator in both hemispheres are called the A. trade winds. B. polar easterlies. C. wind belts. D. westerlies. 19. In the Northern Hemisphere, trade winds flow from the A. southeast. B. south. C. northeast. D. northwest. 20. From what direction do trade winds flow in the Southern Hemisphere? 6
A. the northeast B. the southeast C. the north D. the southwest 21. The prevailing winds that blow from west to east through the contiguous United States are the A. trade winds. B. doldrums. C. polar easterlies. D. westerlies. 22. What are the prevailing winds that blow from east to west between 60 and 90 in both hemispheres? A. the westerlies B. the polar easterlies C. wind belts D. the trade winds 23. A stormy region created where the polar easterlies meet warm air from the westerlies is called a A. trade wind. B. doldrum. C. front. D. wind belt. In the space provided, write the letter of the description that best matches the term or phrase. 26. Doldrums LOCAL WINDS Use the terms from the list below to complete the sentences that follow. Each term may be used only once. valley breeze breezes sea breeze land breeze mountain breeze local winds 31. Air movement influenced by local conditions and local temperature variations often cause, which are not part of the global wind belts. 32. Gentle winds that extend over distances of less than 100 km are called. 33. As warm air above land rises and cool air from above water moves in to replace it, a cool wind moving from water to land, called a, forms in the afternoon. 34. Overnight, the land offshore cools more rapidly than the water does, and a sea breeze is replaced by a, which flows from the cool land toward the warmer water. 35. During the day in mountainous regions, a gentle breeze called a forms when warm air from the valleys moves upslope. 36. At night in the mountains, cool air descends from the peaks to the valleys, creating a. 27. horse latitudes 28. jet streams 29. subtropical jet streams 30. polar jet streams 7
Review: 1. Where were the heavy elements that make up the earth created?(3 points) 2. Draw a diagram of the water cycle. Make sure you include the reservoirs where water can be and the ways it moves between these reservoirs. (10 points) 3. Explain Alfred Wegener s continental drift hypothesis, make sure you include all of the evidence he had. Why was this hypothesis not accepted in his lifetime? A good place to look is in chapter 10. (10 points) 8